Flex. Pod Datacenter with Microsoft Exchange 2. F5 BIG- IP and Cisco Application Centric Infrastructure Design Guide. Microsoft Exchange 2. Flex. Pod with Cisco ACI and F5 BIG- IP LTM is a predesigned, best practice data center architecture that is built on the Cisco Unified Computing System. The key design details and best practices to be followed for deploying this new shared architecture are covered in this design guide. This Exchange Server 2. Flex. Pod with VMware v.

Sphere 5. 5 and Cisco Nexus 9. Application Centric Infrastructure (ACI).

The details for this infrastructure is not covered in this document, but can be found at the following link: Flex. Pod Datacenter with Microsoft Exchange 2.

In the Services for Network File System Microsoft Management (MMC) console, you can ensure that the service is started by right-clicking Client for NFS, and then. The Witcher 2 Assassins Of Kings Enhanced Edition Free Download. If network resources reside in an MIT Kerberos realm and you need Windows clients to be able to access them on a regular basis, you can do this by creating a one-way.

F5 Bi. G- IP, and Cisco Application Centric Infrastructure (ACI) Deployment Guide. Cisco. These designs incorporate a wide range of technologies and products into a portfolio of solutions that have been developed to address the business needs of customers. Achieving the vision of a truly agile, application- based data center requires a sufficiently flexible infrastructure that can rapidly provision and configure the necessary resources independently of their location in the data center. This document describes the Cisco solution for deploying Microsoft Exchange. Cisco ACI is a holistic architecture that introduces hardware and software innovations built upon the new Cisco Nexus. Cisco ACI provides a centralized policy- driven application deployment architecture, which is managed through the Cisco Application Policy Infrastructure Controller (APIC).

What does your business need? More customer insight? Faster financial transactions? Apps and services delivered at lightning speed? Open innovation? Tighter security. By: Arie Slob. I get messages from people having problems with Windows Explorer crashes on a regular basis. Mostly they go something like this: "When I right-click a. The home page for SPEC, the Standards Performance Evaluation Corporation, a standards body for performance benchmarks. For Windows Messenger in a non-UPnP environment, unfortunately Microsoft requires dynamic UDP ports across a very wide range. This is a tremendous security risk. NFS Client and NFS Server: Products : Download Price & Order Support Company Tutorials Sitemap : nfsAxe - Windows NFS Client and NFS server nfsAxe package is NFS. 00718: BASIC Web Utility returns an incomplete set of HTTP headers 01124: BASIC Web utility Duplicate Name in String Template generating an error 17.

FlexPod Datacenter with Microsoft Exchange 2013, F5 BIG-IP and Cisco Application Centric Infrastructure Design Guide. Mounting an NFS (Network File System) share using a Unix-like operating system is pretty straight forward. But how do you do this in Windows 10?

Cisco ACI delivers software flexibility with the scalability of hardware performance. The audience of this document includes, but is not limited to, sales engineers, field consultants, professional services, IT managers, partner engineers, and customers who want to take advantage of an infrastructure that is built to deliver IT efficiency and enable IT innovation. The Cisco Unified Computing System is a third- generation data center platform that unites computing, networking, storage access, and virtualization resources into a cohesive system designed to reduce TCO and increase business agility. The system integrates a low- latency, lossless 1.

Gigabit Ethernet (1. Gb. E) unified network fabric with enterprise- class, x. The system is an integrated, scalable, multi- chassis platform in which all resources participate in a unified management domain that is controlled and managed centrally. Figure 1       Cisco Unified Computing System. Figure 2       Cisco Unified Computing System Components.

Figure 3       Cisco Unified Computing System. The main components of the Cisco UCS are.

Cisco UCS B- Series Blade Servers work with virtualized and non- virtualized applications to increase performance, energy efficiency, flexibility and productivity. This network foundation consolidates LANs, SANs, and high- performance computing networks which are separate networks today. The unified fabric lowers costs by reducing the number of network adapters, switches, and cables, and by decreasing the power and cooling requirements.

By unifying storage access, Cisco UCS can access storage over Ethernet, Fiber Channel, Fiber Channel over Ethernet (FCo. E), and i. SCSI. This provides customers with the options for setting storage access and investment protection. Additionally, server administrators can reassign storage- access policies for system connectivity to storage resources, thereby simplifying storage connectivity and management for increased productivity. The Cisco UCS Manager has an intuitive graphical user interface (GUI), a command- line interface (CLI), and a robust application programming interface (API) to manage all system configuration and operations. The Cisco UCS is designed to deliver: . The system is managed, serviced and tested as a whole. A single chassis can house up to eight half- width Cisco UCS B- Series Blade Servers and can accommodate both half- width and full- width blade form factors.

Four single- phase, hot- swappable power supplies are accessible from the front of the chassis. These power supplies are 9. N+ 1 redundant and grid- redundant configurations. The rear of the chassis contains eight hot- swappable fans, four power connectors (one per power supply), and two I/O bays for Cisco UCS 2. XP Fabric Extenders. A passive mid- plane provides up to 4. Gbps of I/O bandwidth per server slot and up to 8.

Gbps of I/O bandwidth for two slots. The chassis is capable of supporting future 8. Gigabit Ethernet standards. Figure 4       Cisco Blade Server Chassis (Front, Rear and Populated Blades View)The Cisco UCS B2. M4 Blade Server is a half- width, two- socket blade server. The system uses two Intel Xeon.

The server balances simplicity, performance, and density for production- level virtualization and other mainstream data center workloads. Figure 5       Cisco UCS B2. M4 Blade Server. A Cisco innovation, the Cisco UCS VIC 1. Gigabit Ethernet, FCo.

E- capable modular LAN on motherboard (m. LOM) designed exclusively for the M3 generation of Cisco UCS B- Series Blade Servers.

When used in combination with an optional port expander, the Cisco UCS VIC 1. Gigabit Ethernet. The Fabric interconnects provide a single point for connectivity and management for the entire system. Typically deployed as an active- active pair, the system’s fabric interconnects integrate all components into a single, highly- available management domain controlled by Cisco UCS Manager.

The fabric interconnects manage all I/O efficiently and securely at a single point, resulting in deterministic I/O latency regardless of a server or virtual machine’s topo- logical location in the system. Cisco UCS 6. 20. 0 Series Fabric Interconnects support the system’s 8. Gbps unified fabric with low- latency, lossless, cut- through switching that supports IP, storage, and management traffic using a single set of cables. The fabric interconnects feature virtual interfaces that terminate both physical and virtual connections equivalently, establishing a virtualization- aware environment in which blade, rack servers, and virtual machines are interconnected using the same mechanisms. The Cisco UCS 6. 24. UP is a 1- RU fabric interconnect that features up to 4. Gigabit Ethernet, Fiber Channel over Ethernet, or native Fiber Channel connectivity.

Figure 6       Cisco UCS 6. UP Fabric Interconnect. The Cisco Nexus 2. PP 1. 0G provides 3. Gb Ethernet and Fibre Channel Over Ethernet (FCo.

E) Small Form- Factor Pluggable Plus (SFP+) server ports and eight 1. Gb Ethernet and FCo. E SFP+ uplink ports in a compact 1 rack unit (1. RU) form factor. When a C- Series Rack- Mount Server is integrated with Cisco UCS Manager, through the Nexus 2. Cisco UCS Manager GUI or Cisco UCS Manager CLI. The Nexus 2. 23. 2 provides data and control traffic support for the integrated C- Series server. Cisco UCS Manager provides unified, centralized, embedded management of all Cisco Unified Computing System software and hardware components across multiple chassis and thousands of virtual machines.

Administrators use the software to manage the entire Cisco Unified Computing System as a single logical entity through an intuitive GUI, a command- line interface (CLI), or an XML API. The Cisco UCS Manager resides on a pair of Cisco UCS 6.

Series Fabric Interconnects using a clustered, active- standby configuration for high availability. The software gives administrators a single interface for performing server provisioning, device discovery, inventory, configuration, diagnostics, monitoring, fault detection, auditing, and statistics collection. Cisco UCS Manager service profiles and templates support versatile role- and policy- based management, and system configuration information can be exported to configuration management databases (CMDBs) to facilitate processes based on IT Infrastructure Library (ITIL) concepts.